by meticulously adjusting the placement of magnets to establish a steady tension in directional force, the system can trigger a feedback loop. This loop operates independently of combustion, solar activation, or any fuelbased input. Instead, it harnesses the inherent repulsion between magnetic fields to sustain motion, while minimizing friction and mechanical resistance through streamlined design. The approach is intentionally grassroots, intended for hands-on assembly at home rather than in a formal laboratory setting. Consequently, the design relies on practical reasoning instead of conceptual theory. For example, rather than focusing on mathematical modeling, the guide demonstrates how to manually test friction reduction by rotating components or observe directional resistance by comparing rotor responses at various angles. These analog methods create a hands-on and user-friendly experience, standing in sharp contrast to the complex wiring schematics and reliance on microcontrollers seen in other DIY energy initiatives. Feedback from users consistently highlights usability as a valuable scientific resource. The components of the motor are modular and engineered for adjustments. Constructors can effortlessly test magnet positioning, rotor equilibrium,